I. C. McMillen

Increased maternal nutrition alters development of the appetite-regulating network in the brain

Individuals exposed to an increased nutrient supply before birth have a high risk of becoming obese children and adults. It has been proposed that exposure of the fetus to high maternal nutrient intake results in permanent changes within the central appetite regulatory network. No studies, however, have investigated the impact of increased maternal nutrition on the appetite regulatory network in species in which this network develops before birth, as in the human. In the present study, pregnant ewes were fed a diet which provided 100% (control, n=8) or ∼160% (well‐fed, n=8) of metabolizable energy requirements. Ewes were allowed to lamb spontaneously, and lambs were sacrificed at 30 days of postnatal age. All fat depots were dissected and weighed, and expression of the appetite‐regulating neuropeptides and the leptin receptor (OBRb) were determined by in situ hybridization. Lambs of well‐fed ewes had higher glucose (Glc) concentrations during early postnatal life (F=5.93, P<0.01) and a higher relative subcutaneous (s.c.) fat mass at 30 days of age (34.9±4.7 g/kg vs. 22.8±3.3 g/kg;P<0.05). The hypothalamic expression of proopiomelanocortin was higher in lambs of well‐fed ewes (0.48±0.09 vs. 0.28±0.04, P<0.05). In lambs of over‐nourished mothers, but not in controls, the expression of OBRb was inversely related to total relative fat mass (r2=0.50, P=0.05, n=8), and the direct relationship between the expression of the central appetite inhibitor CART and fat mass was lost. The expression of neuropeptide Y and AGRP was inversely related to total relative fat mass (NPY, r2=0.28, P<0.05;agouti‐related peptide, r2=0.39, P<0.01). These findings suggest that exposure to increased nutrition before birth alters the responses of the central appetite regulatory system to signals of increased adiposity after birth.—Muhlhausler, B. S., Adam, C. L., Findlay, P. A., Duffield, J. A., and McMillen, I. C. Increased maternal nutrition alters development of the appetite‐regulating network in the brain. FASEB J. 20, E556–E565 (2006)

Impact of Maternal Undernutrition During the Periconceptional Period, Fetal Number, and Fetal Sex on the Development of the Hypothalamo-Pituitary Adrenal Axis in Sheep During Late Gestation

Abstract Evidence from epidemiologic, clinical, and experimental studies has shown that a suboptimal intrauterine environment during early pregnancy can alter fetal growth and gestation length and is associated with an increased prevalence of adult hypertension and cardiovascular disease. It has been postulated that maternal nutrient restriction may act to reprogram the development of the pituitary-adrenal axis, resulting in excess glucocorticoid exposure and adverse health outcomes in later life. It is unknown, however, whether maternal nutrient restriction during the periconceptional period alters the development of the fetal pituitary-adrenal axis or whether the effects of periconceptional undernutrition can be reversed by the provision of an adequate level of maternal nutrition throughout the remainder of pregnancy. We have investigated the effect of restricted periconceptional nutrition (70% of control feed allowance) from 60 days before until 7 days after mating and the effect of restricted gestational nutrition from Day 8 to 147 of gestation on the development of the fetal hypothalamo-pituitary adrenal (HPA) axis in the sheep. In these studies, we have also investigated the effects of fetal number and sex on the pituitary-adrenal responses to periconceptional and gestational undernutrition. In ewes maintained on a control diet throughout the periconceptional and gestational periods, fetal plasma ACTH concentrations were higher and the prepartum surge in cortisol occurred earlier in singletons compared with twins. Plasma ACTH concentrations were also significantly higher in male compared with female singletons, and in twin fetuses, the prepartum surge in cortisol concentrations occurred earlier in males than in females. Periconceptional undernutrition resulted in higher fetal plasma concentrations of ACTH between 110 and 145 days of gestation and a significantly greater cortisol response to a bolus dose of corticotropin-releasing hormone in twin, but not singleton, fetuses in late gestation. We have therefore demonstrated that fetal number and sex each has an impact on the timing of the prepartum activation of the HPA axis in the sheep. Restriction of the level of maternal nutrition before and in the first week of a twin pregnancy results in stimulation of the fetal pituitary-adrenal axis in late gestation, and this effect is not reversed by the provision of a maintenance control diet from the second week of pregnancy.

Epigenetics and human obesity

Background:Recent technological advances in epigenome profiling have led to an increasing number of studies investigating the role of the epigenome in obesity. There is also evidence that environmental exposures during early life can induce persistent alterations in the epigenome, which may lead to an increased risk of obesity later in life.Method:This paper provides a systematic review of studies investigating the association between obesity and either global, site-specific or genome-wide methylation of DNA. Studies on the impact of pre- and postnatal interventions on methylation and obesity are also reviewed. We discuss outstanding questions, and introduce EpiSCOPE, a multidisciplinary research program aimed at increasing the understanding of epigenetic changes in emergence of obesity.Results:An electronic search for relevant articles, published between September 2008 and September 2013 was performed. From the 319 articles identified, 46 studies were included and reviewed. The studies provided no consistent evidence for a relationship between global methylation and obesity. The studies did identify multiple obesity-associated differentially methylated sites, mainly in blood cells. Extensive, but small, alterations in methylation at specific sites were observed in weight loss intervention studies, and several associations between methylation marks at birth and later life obesity were found.Conclusions:Overall, significant progress has been made in the field of epigenetics and obesity and the first potential epigenetic markers for obesity that could be detected at birth have been identified. Eventually this may help in predicting an individual’s obesity risk at a young age and opens possibilities for introducing targeted prevention strategies. It has also become clear that several epigenetic marks are modifiable, by changing the exposure in utero, but also by lifestyle changes in adult life, which implies that there is the potential for interventions to be introduced in postnatal life to modify unfavourable epigenomic profiles.

THE CORRELATION BETWEEN SERUM AND SALIVARY MELATONIN CONCENTRATIONS AND URINARY 6-HYDROXYMELATONIN SULPHATE EXCRETION RATES: TWO NON-INVASIVE TECHNIQUES FOR MONITORING HUMAN CIRCADIAN RHYTHMICITY

Athough there is a circadian rhythm in blood melatonin concentrations in humans, the problems associated with frequent blood collection limit the use of this rhythm in the investigation of the circadian system and in the diagnosis and treatment of chronobiological disorders. Therefore, to establish a convenient, non‐invasive technique for monitoring melatonin circadian rhythmicity, we compared the melatonin concentrations in blood samples collected from five subjects every 2‐4 h over a 26 h period, with the melatonin concentrations in saliva samples and with the total amount of 6‐hydroxymelatonin sulphate excreted in the urine during 2‐h periods. There was significant correlation between serum and salivary melatonin concentrations (r= 0.81, P < 0.001), and between serum melatonin concentrations and 6‐hydroxymelatonin sulphate excretion rates (r= 0‐72, P<0001). The results demonstrate that both salivary melatonin concentrations and urinary 6‐hydroxymelatonin sulphate excretion rates are reliable indices of serum melatonin concentrations. These measurements, in combination with frequent sample collection, provide two convenient, non‐invasive techniques for monitoring melatonin circadian rhythmicity.

Fetal growth restriction, catch-up growth and the early origins of insulin resistance and visceral obesity.

There is an association between growing slowly before birth, accelerated growth in early postnatal life and the emergence of insulin resistance, visceral obesity and glucose intolerance in adult life. In this review we consider the pathway through which intrauterine growth restriction (IUGR) leads to the initial increase in insulin sensitivity and to catch-up growth. We also discuss the importance of the early insulin environment in determining later visceral adiposity and the intrahepatic mechanisms that may result in the emergence of glucose intolerance in a subset of IUGR infants. We present evidence that a key fetal adaptation to poor fetal nutrition is an upregulation of the abundance of the insulin receptor in the absence of an upregulation of insulin signalling in fetal skeletal muscle. After birth, however, there is an upregulation in the abundance of the insulin receptor and the insulin signalling pathway in the IUGR offspring. Thus, the origins of the accelerated postnatal growth rate experienced by IUGR infants lie in the fetal adaptations to a poor nutrient supply. We also discuss how the intracellular availability of free fatty acids and glucose within the visceral adipocyte and hepatocyte in fetal and neonatal life are critical in determining the subsequent metabolic phenotype of the IUGR offspring. It is clear that a better understanding of the relative contributions of the fetal and neonatal nutrient environment to the regulation of key insulin signalling pathways in muscle, visceral adipose tissue and the liver is required to support the development of evidence-based intervention strategies and better outcomes for the IUGR infant.

Restriction of placental and fetal growth in sheep alters fetal blood pressure responses to angiotensin II and captopril

1 We have measured arterial blood pressure between 115 and 145 days gestation in normally grown fetal sheep (control group; n= 16) and in fetal sheep in which growth was restricted by experimental restriction of placental growth and development (PR group; n= 13). There was no significant difference in the mean gestational arterial blood pressure between the PR (42.7 ± 2.6 mmHg) and control groups (37.7 ± 2.3 mmHg). Mean arterial blood pressure and arterial P  O 2 were significantly correlated in control animals (r= 0.53, P < 0.05, n= 16), but not in the PR group. 2 There were no changes in mean arterial blood pressure in either the PR or control groups in response to captopril (7.5 μg captopril min−1; PR group n= 7, control group n= 6) between 115 and 125 days gestation. After 135 days gestation, there was a significant decrease (P < 0.05) in the fetal arterial blood pressure in the PR group but not in the control group during the captopril infusion (15 μg captopril min−1; PR group n= 7, control group n= 6). 3 There was a significant effect (F= 14.75; P < 0.001) of increasing doses of angiotensin II on fetal diastolic blood pressure in the PR and control groups. The effects of angiotensin II were different (F= 8.67; P < 0.05) in the PR and control groups at both gestational age ranges. 4 These data indicate that arterial blood pressure may be maintained by different mechanisms in growth restricted fetuses and normally grown counterparts and suggests a role for the fetal renin‐angiotensin system in the maintenance of blood pressure in growth restricted fetuses.

Placental Restriction Alters the Functional Development of the Pituitary-Adrenal Axis in the Sheep Fetus during Late Gestation

We have experimentally restricted placental growth in the sheep to investigate the impact of reduced substrate delivery on fetal pituitary proopiomelanocortin (POMC) mRNA levels and on circulating ACTH 1-39, immunoreactive ACTH, and cortisol concentrations during late gestation. Endometrial caruncles were removed in nine ewes before mating to reduce the number of placentomes formed [placental restriction group (PR)]. Fetal arterial Po2 and O2 saturation were reduced in the PR group (2.0± 0.1 kPa and 42.8 ± 1.1%, n = 9) when compared with control fetuses (3.1 ± 0.1 kPa and 66.4 ± 0.9%, n = 10). The ratio of anterior pituitary POMC mRNA:18 S ribosomal RNA was also lower (p < 0.05) in the PR group (0.49 ± 0.05) when compared with the control group (0.80 ± 0.12) after 140 d of gestation. In contrast, plasma concentrations of ACTH 1-39 and immunoreactive ACTH were similar in the PR and control groups throughout late gestation. Plasma ACTH 1-39 concentrations increased (p < 0.006) between 128 and 134 d of gestation, in both the PR (122-128 d: 2.70 ± 0.34 pmol/L: 134-141 d; 7.07 ± 1.57 pmol/L) and control (122-128 d; 3.36 ± 0.56 pmol/L: 134-141 d; 10.78 ± 2.88 pmol/L) groups. Combined adrenal weight was higher (p < 0.005) in the PR group (130 ± 10 mg/kg) compared with controls (80 ± 1 mg/kg) at 140 d of gestation, and plasma cortisol concentrations were also higher (p < 0.02) in PR than control fetuses between 127 and 141 d of gestation. These changes imply that the fetal hypothalamopituitary-adrenal axis is operating at a new central set point in the growth-restricted fetus.

Maternal undernutrition increases arterial blood pressure in the sheep fetus during late gestation

We have investigated the effect of a 50% reduction in maternal nutrient intake during the last 30 days of pregnancy on arterial blood pressure and on arterial blood pressure responses to angiotensin II (AII) and the angiotensin converting enzyme (ACE) inhibitor captopril in the sheep fetus at 115–125 and at 135–145 days gestation (term = 147 ± 3 days gestation). Fetal plasma glucose concentrations were lower in the undernourished (UN) group compared to the control animals. There was no difference, however, in fetal plasma cortisol or adrenocorticotrophic hormone (ACTH) concentrations between the UN and control groups between 115 and 145 days gestation. During the first 10 days of undernutrition, maternal plasma concentrations of cortisol were increased in the UN group compared to controls. At 115–125 days gestation, fetal arterial blood pressure was also higher in the UN group compared with controls and there was an inverse relationship (r=−0.62, P < 0.05) between mean arterial pressure and the fetal plasma concentrations of ACTH in the UN group. Fetal blood pressure responses to increasing doses of angiotensin II were also higher (P < 0.05) in UN compared to control animals at 115–125 days gestation. Between 135 and 145 days gestation, fetal arterial blood pressure was increased in UN fetal sheep and mean arterial blood pressure was correlated with fetal plasma concentrations of cortisol. Increased arterial blood pressure and responsiveness to AII measured in the fetuses of nutrient‐restricted ewes may be related in part to fetal exposure to the actions of cortisol derived from transplacental transfer during the first 10 days after the start of the restricted feeding regime.

Epigenetics of programmed obesity: alteration in IUGR rat hepatic IGF1 mRNA expression and histone structure in rapid vs. delayed postnatal catch-up growth

Maternal food restriction (FR) during pregnancy results in intrauterine growth-restricted (IUGR) offspring that show rapid catch-up growth and develop metabolic syndrome and adult obesity. However, continued nutrient restriction during nursing delays catch-up growth and prevents development of obesity. Epigenetic regulation of IGF1, which modulates growth and is synthesized and secreted by the liver, may play a role in the development of these morbidities. Control (AdLib) pregnant rats received ad libitum food through gestation and lactation, and FR dams were exposed to 50% food restriction from days 10 to 21. FR pups were nursed by either ad libitum-fed control dams (FR/AdLib) or FR dams (FR/FR). All pups were weaned to ad libitum feed. Maternal FR resulted in IUGR newborns with significantly lower liver weight and, with the use of chromatin immunoprecipitation, decreased dimethylation at H3K4 in the IGF1 region was observed. Obese adult FR/AdLib males had decreased dimethylation and increased trimethylation of H3K4 in the IGF1 region. This corresponded to an increase in mRNA expression of IGF1-A (134 ± 5%), IGF1-B (165 ± 6%), IGF1 exon 1 (149 ± 6%), and IGF1 exon 2 (146 ± 7%) in the FR/AdLib compared with the AdLib/AdLib control group. In contrast, nonobese FR/FR had significantly higher IGF1-B mRNA levels (147 ± 19%) than controls with no difference in IGF1-A, exon 1 or exon 2. Modulation of the rate of IUGR newborn catch-up growth may thus protect against IGF1 epigenetic modifications and, consequently, obesity and associated metabolic abnormalities.

Development of Circadian Sleep-Wake Rhythms in Preterm and Full-Term Infants

ABSTRACT: We have compared the roles of neurologic maturity and environmental time cues in the development of the entrained circadian sleep-wake rhythm in the preterm and term human infant. The preterm infants (n = 19) spent some time after birth in a hospital nursery with no environmental time cues, whereas the term infants (n = 22) were exposed from birth to a cyclical light and dark environment with one major caregiver. The circadian sleep-wake rhythm in the preterm infants entrained after a similar time of exposure to an environment with daily time cues but at an earlier postconceptional age when compared with the term group. We conclude, therefore, that it is the length of exposure to environmental time cues, rather than neurologic maturity, that determines the entrainment of the circadian rhythm of sleep and wakefulness in the human infant.